从外周血、CSF 和尿液中的游离 DNA 检测小儿脑肿瘤的基因组改变的液体活检。

Liquid biopsy detection of genomic alterations in pediatric brain tumors from cell-free DNA in peripheral blood, CSF, and urine.

机构信息

Dana-Farber/Boston Children's Cancer and Blood Disorders Center, Boston, Massachusetts, USA.

GHU-Paris-Sainte-Anne Hospital, Department of Neuropathology, Paris University, Paris, France.

出版信息

Neuro Oncol. 2022 Aug 1;24(8):1352-1363. doi: 10.1093/neuonc/noab299.

DOI:10.1093/neuonc/noab299

PMID:34984433

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9340641/

Abstract

BACKGROUND

The ability to identify genetic alterations in cancers is essential for precision medicine; however, surgical approaches to obtain brain tumor tissue are invasive. Profiling circulating tumor DNA (ctDNA) in liquid biopsies has emerged as a promising approach to avoid invasive procedures. Here, we systematically evaluated the feasibility of profiling pediatric brain tumors using ctDNA obtained from plasma, cerebrospinal fluid (CSF), and urine.

METHODS

We prospectively collected 564 specimens (257 blood, 240 urine, and 67 CSF samples) from 258 patients across all histopathologies. We performed ultra-low-pass whole-genome sequencing (ULP-WGS) to assess copy number variations and estimate tumor fraction and developed a pediatric CNS tumor hybrid capture panel for deep sequencing of specific mutations and fusions.

RESULTS

ULP-WGS detected copy number alterations in 9/46 (20%) CSF, 3/230 (1.3%) plasma, and 0/153 urine samples. Sequencing detected alterations in 3/10 (30%) CSF, 2/74 (2.7%) plasma, and 0/2 urine samples. The only positive results were in high-grade tumors. However, most samples had insufficient somatic mutations (median 1, range 0-39) discoverable by the sequencing panel to provide sufficient power to detect tumor fractions of greater than 0.1%.

CONCLUSIONS

Children with brain tumors harbor very low levels of ctDNA in blood, CSF, and urine, with CSF having the most DNA detectable. Molecular profiling is feasible in a small subset of high-grade tumors. The level of clonal aberrations per genome is low in most of the tumors, posing a challenge for detection using whole-genome or even targeted sequencing methods. Substantial challenges therefore remain to genetically characterize pediatric brain tumors from liquid biopsies.

摘要

背景

识别癌症中的基因改变对于精准医学至关重要；然而，获取脑肿瘤组织的手术方法具有侵入性。从液体活检中分析循环肿瘤 DNA（ctDNA）已成为一种避免侵入性程序的有前途的方法。在这里，我们系统地评估了使用从血浆、脑脊液（CSF）和尿液中获得的 ctDNA 对小儿脑肿瘤进行分析的可行性。

方法

我们前瞻性地收集了 258 名患者的 564 个样本（257 个血液、240 个尿液和 67 个 CSF 样本），涵盖所有组织病理学类型。我们进行了超低深度全基因组测序（ULP-WGS）以评估拷贝数变异并估计肿瘤分数，并开发了一种小儿中枢神经系统肿瘤杂交捕获面板，用于对特定突变和融合进行深度测序。

结果

ULP-WGS 在 9/46（20%）CSF、3/230（1.3%）血浆和 0/153 尿液样本中检测到拷贝数改变。测序在 3/10（30%）CSF、2/74（2.7%）血浆和 0/2 尿液样本中检测到改变。唯一的阳性结果出现在高级别肿瘤中。然而，大多数样本的体细胞突变数量太少（中位数为 1，范围 0-39），无法通过测序面板提供足够的能力来检测大于 0.1%的肿瘤分数。

结论

患有脑肿瘤的儿童血液、CSF 和尿液中的 ctDNA 水平非常低，其中 CSF 中可检测到的 DNA 最多。分子分析在一小部分高级别肿瘤中是可行的。大多数肿瘤的基因组中克隆异常的水平较低，这对使用全基因组甚至靶向测序方法进行检测构成了挑战。因此，从液体活检中对小儿脑肿瘤进行基因特征分析仍然存在很大的挑战。

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